JPH08109003A - Generation of high purity hydrogen and cartridge case - Google Patents

Abstract

PURPOSE: To enable highly purification of hydrogen produced by reduction reactions of water with aluminum and high-temperature steam with magnesium by igniting them in no use of an explosive. CONSTITUTION: The reduction reaction between aluminum 20 and water 21 is induced as a heat source for an ignition part 30 using ignition water 30a and a reactive metal 30b, further the reaction product obtained by the reduction reaction between magnesium 23 with high-temperature steam is purified with centrifuge 19.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-purity hydrogen generation method and a shell case, and particularly to hydrogen obtained by reducing each of water and aluminum and high-temperature steam and magnesium by igniting without using explosives. New improvements to achieve

[0002]

2. Description of the Related Art Conventionally used hydrogen generating methods and cartridges of this kind are shown in FIG.
The structure of Japanese Patent No. 90 can be mentioned. That is, in FIG. 3, the reference numeral 1 is a porous aluminum body having a large number of pores 1a formed by compression molding or low pressure casting of aluminum pellets. A recess 2 having a predetermined depth is formed.

An igniter 3 composed of aluminum powder and iron oxide is loaded in the recess 2, and the igniter 3 is, for example, barium peroxide for igniting the igniter 3. Ignition agent 4 consisting of a mixture with aluminum powder
Are embedded together with the magnesium ribbon 5. In addition, the ignition part 6 is composed of the ignition agent 3 and the ignition agent 4,
A well-known normal powder can also be used for this ignition part 6.

In the above structure, when the magnesium ribbon 5 is heated and ignited, the igniting agent 4 is ignited by the high heat and at the same time, the igniting agent 3 is ignited.

At this time, when the iron oxide contained in the igniter 3 is reduced and the molten iron is stored in the bottom 2a in the recess 2, the porous aluminum body 1 is also immediately melted, and at the same time, the water becomes high temperature steam. Is reduced exothermically and high-temperature hydrogen is explosively generated.

Since the above-mentioned reaction is a strong exothermic reaction,
It can be used as an explosive that generates hydrogen, and even when a normal explosive is used, hydrogen can be explosively generated in almost the same process.

Further, as described above, the well-known thermite method (exothermic reaction that occurs when aluminum is heated on a metal oxide) is used not only when the porous aluminum body 1 is heated by using explosives. Also in the case, the generation of high temperature hydrogen can be obtained explosively in the same manner. Note that n holes 1a are formed in a unit volume, and by appropriately selecting the product na ^{3 and} making the masses of the aluminum body and impregnated water approximately equal, the reduction reaction can proceed efficiently. , The product na ³ ≈0.38.

[0008]

Since the conventional method for generating hydrogen and the conventional casing have the above-described structure, the following problems have been encountered. That is, it is extremely difficult to fill and retain water in the porous aluminum body, which is a great obstacle to practical use.

The present invention has been made to solve the above problems, and in particular, hydrogen obtained by each reduction reaction of water with aluminum and high temperature steam with magnesium is ignited without using explosive. An object of the present invention is to provide a high-purity hydrogen generation method and a cartridge case that are highly purified.

[0010]

The method for producing high purity hydrogen according to the present invention uses an ignition part as a heat source, which uses a reaction metal body that reacts with ignition water, to induce a reduction reaction between aluminum and water, and magnesium and high temperature. This is a method for obtaining highly pure hydrogen by purifying a reaction product obtained through a reduction reaction with water vapor using a centrifuge.

More specifically, it is a method in which the ignition water is pressed by a valve body, the wall body is deformed by the pressure of the ignition water, and the ignition water and the reaction metal body are brought into contact with each other.

More specifically, as the reaction metal body,
This is a method using magnesium amalgam or an alkali metal.

The cartridge case according to the present invention comprises an ignition part provided in a container, ignition water separately disposed in the cavity of the ignition part through a wall body, and a reaction metal body which reacts with the ignition water. A valve body provided in the cavity for preventing leakage of the ignition water; aluminum and water provided in a reaction chamber of the container; an aluminum tube body provided with magnesium in the reaction chamber; and the reaction chamber. Nozzle formed on a partition wall for forming a membrane, a film provided on the nozzle, a container lid portion separated from the partition wall and forming a centrifuge chamber, and attached to a hole portion of the container lid portion. And the bullet is fired by purified hydrogen obtained by centrifuging hydrogen generated by the reduction reaction of the aluminum and water using the ignition unit as a heat source.

More specifically, the valve body has a spherical shape.

More specifically, the wall body is made of a material that does not react with the ignition water and is deformable.

More specifically, the aluminum and magnesium are composed of powder.

[0017]

In the high purity hydrogen generation method according to the present invention,
The water for ignition in the ignition part and the reaction metal body (magnesium amalgam or alkali metal) are brought into contact with each other by pushing the valve body, and the ignition powder is ignited by a violent exothermic reaction. The reaction product hydrogen and high temperature steam are generated. Magnesium trapped in the aluminum tube body due to the high temperature state due to this reduction reaction has already reached the boiling point (about 1097 ° C) when the temperature of the aluminum tube body exceeds 1000 ° C and softens. It expands and ruptures, generating magnesium oxide and hydrogen which are reaction products by high temperature steam in the reaction chamber and a rapid exothermic reduction reaction, and further heating the surrounding aluminum powder to further promote the reaction. The reaction products generated by the above-mentioned reduction reactions are purified by centrifuging heavy and light masses by a centrifuge adjacent to the reaction chamber, and high-purity hydrogen consisting of light masses is put into the container lid. Is taken out from the hole of the section.

Further, in the cartridge case according to the present invention, since the bullet is loaded in the hole of the container lid, the bullet is ejected from the hole by the pressure of the high-purity hydrogen described above.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the method for producing high purity hydrogen and the casing according to the present invention will be described in detail below with reference to the drawings. It should be noted that the same or equivalent parts as those of the conventional example will be described using the same reference numerals. The reference numeral 10 in FIG. 1 is a container having a substantially cylindrical shape as a whole, and an ignition unit 30 and an ignition unit 6 as heat sources are provided in series at the axial center of the container 10. Here, the ignition part 6 is an igniter 3 made of a conventional material and made of aluminum powder and iron oxide.
And an ignition agent 4 composed of a mixture of barium peroxide and aluminum powder. The ignition unit 6 is configured so that it can be ignited from the outside via the ignition unit 30 provided at the end 10a of the container 10. As shown in FIG. 2, the ignition part 30 is provided in a cavity 10c formed at the end 10a of the container 10, and the cavity 1
The ignition water 30a and a reaction metal body 30b made of magnesium amalgam or an alkali metal which reacts with the ignition water 30a are separated by a wall body 30c, and the ignition water 30a has a spherical valve body 30d. Hole 3
Since the lid 30f having 0e is pressed and fixed from the outside, it is configured to be blocked from the outside and to prevent water leakage. The wall body 30c and the valve body 30
d is made of a material that does not react with the ignition water 30a,
In particular, the wall 30c is made of a deformable material such as ceramics or plastics. Further, the ignition water 30a is filled in the cavity 10c, and then the valve body 30d is loaded and fixed by the lid body 30f. The lid 30f is detachably provided.

Inside the container 10, the end portion 10a is formed.
The partition 12 is provided in a state of being separated from the container, and the container lid portion 13 is provided in a state of being separated from the partition 12,
The hole 14 formed at the center of the container lid 13 has a bullet 1
5 is loaded.

A reaction chamber 16 is formed between the end portion 10a and the partition wall 12, and the ignition portion 6 is located at the axial center of the reaction chamber 16 in a rod shape. A nozzle 18 having a membrane 17 is formed at the outer peripheral position of the partition wall 12, and a centrifugal separation chamber 19 is formed between the partition wall 12 and the container lid 13. This centrifuge chamber 19
The discharge angle of the nozzle 18 is designed to be deviated from the axial direction so that the gaseous reaction product discharged from the nozzle 18 can sufficiently rotate along the inner wall 10b of the container 10.

Inside the reaction chamber 16, aluminum 20 made of powder or granules and water 21 are contained in a slurry state, and the ignition part 6 and the ignition part 6 are provided at the outer peripheral position of the ignition part 6. A coaxially arranged aluminum tube body 22 is provided, and magnesium 23 that causes a reduction reaction with water is internally provided in the aluminum tube body 22 in the form of powder or granules. The magnesium 23 is configured to control the rate of reduction reaction in the reaction chamber 16.

Next, in the above-mentioned structure, first, a case where high-purity hydrogen is generated will be described. First, the ignition unit 30
Through the hole 30e of the valve body 3 by an appropriate rod (not shown).
When 0d is mechanically pushed, the wall 3
0c is pressed and deformed, and it is destroyed by shock and water for ignition 30a
And the reaction metal body 30b are mixed and react with each other to generate heat. This reaction heat activates the adjacent ignition part 6, and the aluminum 20 and the water 21 in the reaction chamber 16 generate hydrogen and high temperature steam as reaction products by the reduction reaction. The magnesium 23 trapped in the aluminum tube body 22 due to the high temperature state due to this reduction reaction has already reached the boiling point (about 1097 ° C.) when the temperature of the aluminum tube body 22 exceeds 1000 ° C. and softens. The aluminum tube body 22 rapidly expands and bursts, generates magnesium oxide and hydrogen which are reaction products by high temperature steam in the reaction chamber 16 and a rapid exothermic reduction reaction, and heats the surrounding aluminum 20. To further accelerate the reaction. The reaction product generated by each reduction reaction described above breaks the membrane 17 and enters from the nozzle 18 to the centrifugal separator 19 adjacent to the reaction chamber 16, and the centrifugal separator 19 separates heavy and light masses. Centrifugated and purified, high-purity hydrogen is supplied to the hole 14 of the container lid 13.
Jet from. The reaction equation between the reaction metal body 30b and the ignition water 30a in the ignition unit 30 described above is such that when the reaction metal body 30b is Na, Na + H ₂ O is NaOH +.
It becomes 1 / 2H ₂ + Q, and Q is about 30 Kcal. In the case of magnesium amalgam, mercury therein is not changed, water and magnesium directly in cold water, has the property of violently reacting, Mg + H ₂ O is MgO
+ H ₂ + Q, and Q is 75 Kcal.

Further, in the cartridge case according to the present invention, since the bullet 15 is loaded in the hole 14 of the container lid 13, the bullet 15 is ejected from the hole 14 by the pressure of the high-purity hydrogen described above. . The above-mentioned aluminum tube body 22 is not limited to the tube body, and may have another shape such as a rod or a box.

[0025]

EFFECTS OF THE INVENTION Since the method for producing high purity hydrogen and the casing according to the present invention are configured as described above, the following effects can be obtained. That is, without using gunpowder, the reduction reaction of magnesium and water is obtained by the reduction reaction of aluminum and water generated by the ignited heat source, and the reduction reaction is optimized by using magnesium contained in the aluminum tube as a reaction control agent. It is possible to generate high-temperature high-purity hydrogen and launch bullets by centrifuging,
Since it is not necessary to use a power source and explosive, it is excellent in portability and can improve portability because it does not touch the explosives control law.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a cartridge case to which a high-purity hydrogen generation method according to the present invention is applied.

FIG. 2 is an enlarged cross-sectional view showing a main part of FIG.

FIG. 3 is a cross-sectional view showing a conventional cartridge case.

[Explanation of symbols]

 6 Ignition part 10 Container 10c Cavity 12 Partition wall 13 Container lid part 14 Hole part 15 Bullet 16 Reaction chamber 17 Membrane 18 Nozzle 19 Centrifuge chamber 20 Aluminum 21 Water 22 Aluminum tube 23 Magnesium 30 Ignition part 30a Ignition water 30b Reaction metal body 30c Wall 30d valve

Claims (7)

[Claims] 1. A reaction metal body (30) which reacts with ignition water (30a).
Using the igniter (30) with b) as the heat source, the aluminum (20)
And a reduction reaction with water (21) are induced, and magnesium
A high-purity hydrogen generation method characterized in that high-purity hydrogen is obtained by purifying a reaction product obtained through a reduction reaction of (23) with high-temperature steam using a centrifuge (19). 2. The ignition water (30a) is pressed by the valve body (30d), the wall body (30c) is deformed by the pressure of the ignition water (30a), and the ignition water (30a) and the reaction metal body ( The method for producing high purity hydrogen according to claim 1, wherein the contact of 30 b) is performed. 3. The high-purity hydrogen generation method according to claim 1, wherein magnesium amalgam or an alkali metal is used as the reaction metal body (30b). 4. An ignition part (30) provided in the container (10),
Ignition water (30a) and the reaction metal body (30b) that reacts with the ignition water (30a), which are separated from each other through the wall (30c) in the cavity (10c) of the ignition part (30), A valve body (30d) provided in the cavity (10c) for preventing leakage of the ignition water (30a), and aluminum (20) and water (21) provided in the reaction chamber (16) of the container (10). And magnesium (2) provided in the reaction chamber (16).
Aluminum tube (22) containing 3) and the reaction chamber (16)
A nozzle (18) formed in the partition wall (12) for forming
A container lid part (1) provided with a membrane (17) provided on the nozzle (18) and a centrifugal separation chamber (19) provided separately from the partition wall (12).
3) and a bullet (15) mounted in the hole (14) of the container lid (13)
And a configuration for firing the bullet (15) with purified hydrogen obtained by centrifuging hydrogen generated by a reduction reaction of the aluminum (20) and water (21) using the ignition unit (30) as a heat source. A cartridge case characterized by the fact that it has been done. 5. The cartridge case according to claim 4, wherein the valve body has a spherical shape. 6. The cartridge case according to claim 4, wherein the wall body is made of a material that does not react with the ignition water and is deformable. 7. The aluminum and magnesium are
The cartridge case according to any one of claims 4 to 6, which is made of powder.